US20200236568A1 - Measurement configuration method and system for terminal having multi-radio-frequency reception capability, and terminal - Google Patents
Measurement configuration method and system for terminal having multi-radio-frequency reception capability, and terminal Download PDFInfo
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- US20200236568A1 US20200236568A1 US16/838,998 US202016838998A US2020236568A1 US 20200236568 A1 US20200236568 A1 US 20200236568A1 US 202016838998 A US202016838998 A US 202016838998A US 2020236568 A1 US2020236568 A1 US 2020236568A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/08—Testing, supervising or monitoring using real traffic
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/10—Scheduling measurement reports ; Arrangements for measurement reports
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
- H04W88/06—Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals
Definitions
- the application relates to the field of wireless communications, and more particularly, to a technology of measurement configuration of a terminal.
- GSM Global System for Mobile communication
- WCDMA Wideband Code Division Multiple Access
- LTE Long Term Evolution
- downlink data transmission on an original chain is interrupted during RF chain retuning, and consequently, a throughput of a user may be greatly influenced.
- a terminal under an LTE dual connectivity condition, a terminal considers to simultaneously receive and send data on two chains.
- a terminal may also simultaneously receive and send data on two chains. This is mainly because frequencies of two access points are greatly different in the LTE-NR or NR-NR scenario, which makes it impossible for them to share an RF chain, for example, LTE works at 2.6 GHz while NR works at a band such as 4.8 GHz or even higher 28 Hz or 38 GHz.
- a second aspect of the embodiments provides a measurement configuration method, including:
- a terminal with a multi-Radio Frequency (RF) receiving capability acquiring, by a terminal with a multi-Radio Frequency (RF) receiving capability, measurement configuration information, part of the measurement configuration information being generated by a second network node;
- RF Radio Frequency
- a processor which is coupled with the transceiver and configured to control the transceiver to send and receive information
- the terminal has a multi-Radio Frequency (RF) receiving capability
- the processor is configured to:
- control the transceiver to acquire measurement configuration information, part of the measurement configuration information being generated by a second network node;
- Radio Frequency (RF) measurement at a measurement object provided by a first network node according to the measurement configuration information
- the application may have the advantages that, for a terminal with a multi-RF capability, particularly a multi-RF receiving capability, throughput performance of the terminal can be ensured as much as possible on the premise of ensuring measurement accuracy.
- characteristics A+B+C are described in an example
- characteristics A+B+D+E are described in another example
- the characteristics C and D are equivalent technical means playing the same role, which can be alternatively used technically and cannot be simultaneously used, and the characteristic E can technically be combined with the characteristic C, then a solution A+B+C+D is technically impossible and shall not be considered to have been recorded and a solution A+B+C+E shall be considered to have been recorded.
- FIG. 1 is a schematic diagram of an LTE-NR multi-connection scenario according to the disclosure.
- FIG. 2 is a flowchart of a measurement configuration method for a terminal with a multi-RF receiving capability according to a first implementation mode of the disclosure.
- FIG. 3 is a flowchart of an example according to the first implementation mode of the disclosure.
- LTE long term evolution
- NR a radio access part in 5th-Generation (5G) and an abbreviation of new radio;
- MN master node
- Measurement GAP measurement gap
- GSM global system for mobile communication
- WCDMA wideband code division multiple access
- Terminal also called User Equipment (UE), a wireless terminal, a mobile terminal and a mobile station, etc.
- UE User Equipment
- a terminal with a multi-RF capability may establish multiple RF chains with network nodes in multiple wireless networks simultaneously.
- the terminal may be connected with a first network node in a first wireless network through a first RF chain and may be simultaneously connected with a second network node in a second wireless network through a second RF chain.
- the first network node may send a measurement request message containing information of the measurement object to the second network node; the second network node, after receiving the measurement request message, may determine whether to accept the measurement request or not and, if the second network node determines to accept the measurement request, the second network node may generate measurement configuration information, and send the measurement configuration information directly to the terminal through the second RF chain or forward the measurement configuration information to the terminal by the first network node through the first RF chain.
- the terminal after completing RF measurement on the second RF chain according to the measurement configuration information, may send an RF measurement result directly to the first network node through the first RF chain or forward the RF measurement result to the first network node through the second RF chain and the second network node. Since no measurement gap is set for the first RF chain in the whole measurement process, throughput performance of the first RF chain can be ensured.
- the measurement configuration information is generated by the second network node (the first network node only provides a measurement object but does not generate measurement configuration information) and RF measurement is implemented on the second RF chain, the measurement object can be completely covered by the second RF chain, and the measurement accuracy can be ensured.
- a preferred application scenario of the technical solution is an LTE-NR multi-connection scenario.
- UE is connected with a network node MN in an LTE network through a 2.6 GHz RF chain, the UE is simultaneously connected with a network node SN in an NR network through a 28 GHz RF chain, and if the SN needs to know an RF measurement result of the MN or the MN needs to know an RF measurement result of the SN, the above technical solution may be adopted.
- a network node when needing to measure measurement objects in N other wireless networks, may send measurement request messages containing information of the measurement objects to network nodes in the N other wireless networks respectively, namely N measurement request messages are sent to N network nodes respectively, the N network nodes may generate measurement configuration information according to the information of the measurement objects respectively and directly or indirectly send the measurement configuration information to a terminal, and the terminal may perform RF measurement on N RF chains according to the N pieces of measurement configuration information respectively and directly or indirectly report N RF measurement results to the network node that initially sent the measurement request messages.
- the N RF measurement results after being summarized, may be reported to a network side by a certain RF chain in a unified manner.
- a first implementation mode of the disclosure relates to a measurement configuration method for a terminal with a multi-RF receiving capability.
- FIG. 2 is a flowchart of the measurement configuration method for a terminal with a multi-RF receiving capability.
- the terminal is connected with a first network node in a first wireless network through a first RF chain, and the terminal is also connected with a second network node in a second wireless network through a second RF chain.
- the first wireless network is an LTE network
- the second wireless network is an NR network.
- the first wireless network is an NR network
- the second wireless network is an LTE network.
- both the first and second wireless networks are NR networks.
- the first wireless network and the second wireless network may be two independent networks.
- the first wireless network and the second wireless network may be the same network.
- the method may include the following steps.
- the first network node determines whether a measurement object can be measured by the first RF chain or not; if not, step 203 is executed, otherwise step 202 is executed.
- the measurement object may be a frequency point, a band or a band group, measurement information, measurement configuration information and the like.
- the measurement object may be out of a band range supported by the first RF chain and within a band range supported by the second RF chain.
- the measurement object may also be within the band range supported by the first RF chain, but the first RF chain cannot be used for measurement for ensuring throughput of the first RF chain, etc.
- step 202 RF measurement is performed on the measurement object by the first RF chain, and then the flow is ended.
- the first network node sends a measurement request message to the second network node, the measurement request message including information of a measurement object.
- step 204 is executed, namely the second network node, after receiving the measurement request message, may determine whether to accept a measurement request of the first network node or not; if the second network node does not accept the measurement request, step 205 is executed, and if the second network node accepts the measurement request, step 206 is executed.
- step 205 the second network node sends a message that the measurement request is rejected to the first network node, and then the flow is ended.
- the second network node In step 206 , the second network node generates measurement configuration information according to the information of the measurement object.
- the measurement configuration information may include information such as measurement gap information and a correspondence between a measurement gap and a measurement object.
- step 207 is executed, namely the terminal acquires the measurement configuration information.
- the second network node may send the measurement configuration information to the terminal through the second RF chain.
- the second network node may send the measurement configuration information to the first network node, and the first network node may send the measurement configuration information to the terminal through the first RF chain.
- step 208 is executed, namely the terminal implements RF measurement by the second RF chain according to the measurement configuration information to obtain an RF measurement result.
- the RF measurement result may include information of the measured frequency point, the measured band or the measured band group and/or a corresponding measurement result.
- step 209 is executed, namely the first network node acquires the RF measurement result of the terminal.
- the terminal may send the RF measurement result to the first network node through the first RF chain.
- the terminal may send the RF measurement result to the second network node through the second RF chain, and the second network node may forward the RF measurement result to the first network node.
- Steps 201 and 202 are optional. That is, in an embodiment, the first network node does not need to determine whether RF measurement can be performed on the measurement object by the first RF chain or not, or, even though the first network node can perform RF measurement on the measurement object, RF measurement can also be performed on the measurement object through the second RF chain by steps 203 to 209 .
- Steps 204 and 205 are also optional. That is, in an embodiment, the second network node does not need to determine whether to accept the measurement request of the first network node or not or provide an option of rejecting the measurement request.
- a flow is as shown in FIG. 3 .
- the measurement initiator is the MN (equivalent to the first network node in the above-mentioned technical solution)
- the SN (equivalent to the second network node in the above-mentioned technical solution) that is the measurement implementing party on a network side and the terminal, i.e., the UE that is the other measurement implementing party.
- the required measurement frequency point may be the same as or different from a frequency point that the measurement implementing party originally expects to measure.
- the measurement initiator and measurement implementing party on the network side may be exchanged, namely the measurement initiator may be the SN and the measurement implementing party may be the MN, and in such a case, a processing manner is similar.
- step 301 when the network node MN (for example, LTE 2.6 GHz) acting as the measurement initiator determines that the terminal cannot measure the network node SN acting as the implementing party through a corresponding chain (a 2.6 GHz RF chain of an LTE network), the network node acting as the measurement initiator coordinates with the network node acting as the measurement implementing party, for example, the network node acting as the measurement initiator may notify the measurement implementing party of a corresponding measurement object, such as information of a frequency point, through a network-side interface (for example, Xn).
- a network-side interface for example, Xn
- step 302 is executed, namely the measurement implementing party may accept or reject a measurement request; if the measurement implementing party accepts the measurement request, a measurement gap is configured; and if the measurement implementing party rejects the measurement request, a reply is given through the network interface (for example, Xn).
- the network interface for example, Xn
- the measurement configuration parameter may be sent to the terminal. Sending may be implemented through the measurement implementing party (as shown in step 304 ), or may be implemented by the measurement initiator (as shown in step 303 ).
- a correspondence between the measurement gap and measurement object for example, an identifier of a frequency point, a band or a band group
- the band group may be a combination of all bands that may be covered by an RF chain of the terminal.
- the terminal performs measurement through an RF chain (for example, a 28 GHz RF chain of an NR network) according to the measurement configuration parameter.
- an RF chain for example, a 28 GHz RF chain of an NR network
- the terminal after completing measurement, may report the measurement to the measurement initiator directly (shown in step 306 ), or may report to the measurement initiator after forwarding the measurement report to the measurement implementing party (shown in step 307 ). During reporting, information of the corresponding frequency point, band or band group is required to be contained.
- a second implementation mode of the disclosure relates to a measurement configuration method for a terminal with a multi-RF receiving capability.
- the implementation mode is an implementation of the first implementation mode on a network side, and related details are the same as those in and may refer to the first implementation mode.
- the terminal is connected with a first network node in a first wireless network through a first RF chain, and the terminal is connected with a second network node in a second wireless network through a second RF chain.
- the method may include the following steps.
- the second network node may receive information of a measurement object from the first network node.
- the second network node may generate measurement configuration information according to the information of the measurement object.
- the measurement configuration information may be sent to the terminal to implement RF measurement by the second RF chain according to the measurement configuration information.
- the second network node may send the measurement configuration information to the terminal through the second RF chain.
- the second network node may send the measurement configuration information to the first network node, and the first network node may send the measurement configuration information to the terminal through the first RF chain.
- the first network node may acquire an RF measurement result of the terminal.
- the first network node may obtain the RF measurement result from the terminal through the first RF chain.
- the second network node may obtain the RF measurement result from the terminal through the second RF chain, and then the second network node may forward the RF measurement result to the first network node.
- a third implementation mode of the disclosure relates to a measurement configuration method for a terminal with a multi-RF receiving capability.
- the implementation mode is an implementation of the first implementation mode on a terminal side, and related details are the same as those in and may refer to the first implementation mode.
- the terminal is connected with a first network node in a first wireless network through a first RF chain, and the terminal is also connected with a second network node in a second wireless network through a second RF chain.
- the method may include the following steps.
- the terminal may acquire measurement configuration information; the measurement configuration information may be generated by the second network node according to information of a measurement object of the first network node.
- the terminal may make RF measurement by the second RF chain according to the measurement configuration information.
- the terminal may report an RF measurement result to the first network node.
- the terminal may send the RF measurement result to the first network node through the first RF chain.
- the terminal may send the RF measurement result to the second network node through the second RF chain, and the second network node may forward the RF measurement result to the first network node.
- a fourth implementation mode of the disclosure relates to a measurement configuration system for a terminal with a multi-RF receiving capability.
- the measurement configuration system for the terminal with the multi-RF receiving capability may include a terminal, a first network node in a first wireless network and a second network node in a second wireless network.
- the terminal may be connected with the first network node through a first RF chain, and the terminal may be also connected with the second network node through a second RF chain.
- the first network node is configured to send information of a measurement object to the second network node and acquire an RF measurement result of the terminal.
- the first network node may obtain the RF measurement result from the terminal through the first RF chain.
- the second network node may obtain the RF measurement result from the terminal through the second RF chain, and then the second network node may forward the RF measurement result to the first network node.
- the second network node is configured to generate measurement configuration information according to the information of the measurement object.
- the terminal is configured to acquire the measurement configuration information, make RF measurement by the second RF chain according to the measurement configuration information and report the measurement result.
- the first implementation mode is a method implementation mode corresponding to the present implementation mode and the present implementation mode may be implemented in combination with the first implementation mode.
- Related technical details mentioned in the first implementation mode are still effective in the present implementation mode and, for reducing repetitions, will not be elaborated herein.
- related technical details mentioned in the present implementation mode may also be applied to the first implementation mode.
- a fifth implementation mode of the disclosure relates to a network system.
- the implementation mode is an implementation of the fourth implementation mode on a network side, and related details are the same as those in and may refer to the fourth implementation mode.
- the network system may include a first network node in a first wireless network and a second network node in a second wireless network.
- the first network node may be connected with a terminal through a first RF chain
- the second network node may be connected with the terminal through a second RF chain.
- the first network node is configured to send information of a measurement object to the second network node and acquire an RF measurement result of the terminal.
- the second network node is configured to generate measurement configuration information according to the information of the measurement object and send the generated measurement configuration information to the terminal to make RF measurement by the second RF chain according to the measurement configuration information.
- a sixth implementation mode of the disclosure relates to a terminal.
- the implementation mode is an implementation of the fourth implementation mode on a terminal side, and related details are the same as those in and may refer to the fourth implementation mode.
- the terminal may be connected with a first network node in a first wireless network through a first RF chain, and the terminal may be connected with a second network node in a second wireless network through a second RF chain.
- the terminal may include:
- a module configured to acquire measurement configuration information, the measurement configuration information being generated by the second network node according to information of a measurement object of the first network node;
- a module configured to implement RF measurement by the second RF chain according to the measurement configuration information
- a module configured to report an RF measurement result to the first network node.
- a seventh implementation mode of the disclosure relates to a measurement configuration method for a terminal with a multi-RF receiving capability.
- the solution (two wireless networks) in the first implementation mode can be extended to a technical solution involving more wireless networks.
- the main difference is that the number of wireless networks is different and details about all the other aspects (such as an example of the measurement object, an example of the measurement configuration information and determination about whether to accept the measurement request or not) may refer to the first implementation mode.
- the terminal is connected with a first network node in a first wireless network through a first RF chain, and the terminal is also connected with N network nodes in N different wireless networks through N RF chains respectively, N being a positive integer.
- the method may include the following steps.
- the first network node may send measurement request messages to the N network nodes respectively, each measurement request message including one piece of measurement object information respectively. Therefore, totally N pieces of measurement object information may be sent to the N network nodes in a one-to-one correspondence manner.
- the N other network nodes may generate measurement configuration information according to the received measurement object information respectively; totally N pieces of measurement configuration information may be generated.
- the terminal may acquire the N pieces of measurement configuration information.
- all the N network nodes may send the measurement configuration information to the first network node, and the first network node may send the N pieces of measurement configuration information to the terminal through the first RF chain.
- the N network nodes may send the measurement configuration information to the terminal through the RF chains between them and the terminal respectively.
- part of network nodes in the N network nodes may send the measurement configuration information generated by them to the first network node, and the first network node may send the N pieces of measurement configuration information to the terminal through the first RF chain; and the other part of network nodes in the N network nodes may directly send the measurement configuration information generated by them to the terminal through the RF chains between them and the terminal respectively.
- the terminal may implement RF measurement by the N RF chains according to the N pieces of measurement configuration information to obtain N RF measurement results.
- the first network node may acquire the N RF measurement results.
- the terminal may summarize the N RF measurement results and report them to the first network node through the first RF chain.
- the terminal may report the N RF measurement results to the N network nodes through the N RF chains respectively, and the N network nodes may forward the RF measurement results to the first network node respectively.
- the terminal may select one or more RF chains from the N RF chains connecting with the N network nodes and report the RF measurement results to one or more of the N network nodes through these RF chains, and then each network node receiving the RF measurement results may forward the RF measurement results to the first network node.
- An eighth implementation mode of the disclosure relates to a measurement configuration system for a terminal with a multi-RF receiving capability.
- the measurement configuration system for a terminal with a multi-RF receiving capability may include a terminal, a first network node in a first wireless network and N network nodes in N wireless networks.
- the terminal may be connected with the first network node in the first wireless network through a first RF chain, and the terminal may be also connected with the N network nodes in the N different wireless networks through N RF chains respectively, N being a positive integer.
- the first network node is configured to send information of a measurement object to the N network nodes and acquire N RF measurement results respectively.
- the N network nodes are configured to generate measurement configuration information according to the received information of a measurement object respectively, totally N pieces of measurement configuration information being generated.
- the terminal is configured to acquire the N pieces of measurement configuration information and implement RF measurement by the N RF chains according to the N pieces of measurement configuration information to obtain the N RF measurement results.
- the seventh implementation mode is a method implementation mode corresponding to the present implementation mode and the present implementation mode may be implemented in combination with the seventh implementation mode.
- Related technical details mentioned in the seventh implementation mode are also effective in the present implementation mode and, for reducing repetitions, will not be elaborated herein.
- related technical details mentioned in the present implementation mode may also be applied to the seventh implementation mode.
- a measurement configuration method which includes:
- the measurement configuration information may be received by the terminal through an RF chain for connection between the second network node and the terminal; or, the measurement configuration information, which is sent by the second network node to the first network node, may be received by the terminal through an RF chain for connection between the first network node and the terminal.
- the receiving, by the first network node, the measurement result obtained at the measurement object from the terminal may include:
- measurement object may be a frequency point, a band or a band group.
- the measurement object may be out of a band range supported by an RF chain connecting the first network node with the terminal.
- the measurement configuration information may include a measurement gap and a correspondence between a measurement gap and a measurement object.
- the method before sending, by the first network node, the information of the measurement object to the second network node, the method may further include:
- a measurement configuration method for a terminal which includes:
- the implementing, by the terminal, RF measurement at the measurement object provided by the first network node according to the measurement configuration information may include:
- part of the measurement configuration information may be generated by the second network node based on the information of the measurement object, and the information of the measurement object may be sent by the first network node to the second network node.
- the method may further include:
- the terminal receiving, by the terminal, the measurement configuration information, which is sent by the second network node to the first network node, through an RF chain for connection between the first network node and the terminal.
- the method may further include:
- the measurement object may be a frequency point, a band or a band group.
- the measurement configuration information may include a measurement gap, and a correspondence between a measurement gap and a measurement object.
- a terminal which includes:
- a processor which is coupled with the transceiver and configured to control the transceiver to send and receive information
- the terminal has a multi-Radio Frequency (RF) receiving capability
- the processor is configured to:
- control the transceiver to acquire measurement configuration information, part of the measurement configuration information being generated by a second network node;
- Radio Frequency (RF) measurement at a measurement object provided by a first network node according to the measurement configuration information
- the processor may be further configured to implement RF measurement on an RF chain for connection between the second network node and the terminal according to the measurement configuration information.
- the transceiver may be further configured to:
- the transceiver may be further configured to:
- the measurement object may be a frequency point, a band or a band group.
- the measurement configuration information may include a measurement gap and a correspondence between a measurement gap and a measurement object.
- Each method implementation mode of the disclosure can be implemented through software, hardware, firmware and the like.
- instruction codes can be stored in any type of computer-accessible memory (for example, permanent or modifiable, volatile or non-volatile, solid-state or non-solid-state and fixed or removable media).
- the memory may be, for example, a Programmable Array Logic (PAL), a Random Access Memory (RAM), a Programmable Read Only Memory (PROM), a Read-Only Memory (ROM), an Electrically Erasable Programmable ROM (EEPROM), a magnetic disk, an optical disk, a Digital Versatile Disc (DVD) and the like.
- PAL Programmable Array Logic
- RAM Random Access Memory
- PROM Programmable Read Only Memory
- ROM Read-Only Memory
- EEPROM Electrically Erasable Programmable ROM
- magnetic disk an optical disk
- DVD Digital Versatile Disc
- each unit mentioned in each device implementation mode of the disclosure can be a logical unit.
- a logical unit can be a physical unit or a part of a physical unit, and can further be implemented by a combination of multiple physical units.
- a combination of functions implemented by these logical units, rather than Physical implementation modes of these logical units, is the key for solving the technical problem in the disclosure.
- units not so closely related to the technical problem in the disclosure are not introduced in each device implementation mode of the disclosure, however, it does not mean that no more other units exist in the device implementation mode.
- execution of an operation according to a certain element refers to execution of the operation at least according to the element, and two conditions are included: execution of the operation only according to the element and execution of the operation according to the element and other elements.
- Expressions such as “multiple”, “multiple times” and “various” include two, twice, two kinds, more than two, more than twice and more than two kinds.
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WO2019075648A1 (zh) | 2019-04-25 |
CN111510937A (zh) | 2020-08-07 |
CN111510937B (zh) | 2023-01-13 |
JP2021503201A (ja) | 2021-02-04 |
CA3079268C (en) | 2024-02-20 |
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TWI799455B (zh) | 2023-04-21 |
SG11202003490TA (en) | 2020-05-28 |
MX2020003775A (es) | 2020-07-29 |
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CA3079268A1 (en) | 2019-04-25 |
AU2017436303A1 (en) | 2020-05-07 |
EP3687212A4 (en) | 2020-10-07 |
KR102471896B1 (ko) | 2022-11-28 |
TW201919416A (zh) | 2019-05-16 |
EP3687212A1 (en) | 2020-07-29 |
JP7084477B2 (ja) | 2022-06-14 |
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